Current Path : /compat/linux/proc/68247/root/usr/src/libexec/bootpd/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //compat/linux/proc/68247/root/usr/src/libexec/bootpd/ConvOldTab.sh |
#!/bin/sh # convert_bootptab Jeroen.Scheerder@let.ruu.nl 02/25/94 # This script can be used to convert bootptab files in old format # to new (termcap-like) bootptab files # # The old format - real entries are commented out by '###' # # Old-style bootp files consist of two sections. # The first section has two entries: # First, a line that specifies the home directory # (where boot file paths are relative to) ###/tftpboot # The next non-empty non-comment line specifies the default bootfile ###no-file # End of first section - indicated by '%%' at the start of the line ###%% # The remainder of this file contains one line per client # interface with the information shown by the table headings # below. The host name is also tried as a suffix for the # bootfile when searching the home directory (that is, # bootfile.host) # # Note that htype is always 1, indicating the hardware type Ethernet. # Conversion therefore always yields ':ha=ether:'. # # host htype haddr iaddr bootfile # ###somehost 1 00:0b:ad:01:de:ad 128.128.128.128 dummy # That's all for the description of the old format. # For the new-and-improved format, see bootptab(5). set -u$DX case $# in 2 ) OLDTAB=$1 ; NEWTAB=$2 ;; * ) echo "Usage: `basename $0` <Input> <Output>" exit 1 esac if [ ! -r $OLDTAB ] then echo "`basename $0`: $OLDTAB does not exist or is unreadable." exit 1 fi if touch $NEWTAB 2> /dev/null then : else echo "`basename $0`: cannot write to $NEWTAB." exit 1 fi cat << END_OF_HEADER >> $NEWTAB # /etc/bootptab: database for bootp server (/etc/bootpd) # This file was generated automagically # Blank lines and lines beginning with '#' are ignored. # # Legend: (see bootptab.5) # first field -- hostname (not indented) # bf -- bootfile # bs -- bootfile size in 512-octet blocks # cs -- cookie servers # df -- dump file name # dn -- domain name # ds -- domain name servers # ef -- extension file # gw -- gateways # ha -- hardware address # hd -- home directory for bootfiles # hn -- host name set for client # ht -- hardware type # im -- impress servers # ip -- host IP address # lg -- log servers # lp -- LPR servers # ns -- IEN-116 name servers # ra -- reply address # rl -- resource location protocol servers # rp -- root path # sa -- boot server address # sm -- subnet mask # sw -- swap server # tc -- template host (points to similar host entry) # td -- TFTP directory # to -- time offset (seconds) # ts -- time servers # vm -- vendor magic number # Tn -- generic option tag n # # Be careful about including backslashes where they're needed. Weird (bad) # things can happen when a backslash is omitted where one is intended. # Also, note that generic option data must be either a string or a # sequence of bytes where each byte is a two-digit hex value. # First, we define a global entry which specifies the stuff every host uses. # (Host name lookups are relative to the domain: your.domain.name) END_OF_HEADER # Fix up HW addresses in aa:bb:cc:dd:ee:ff and aa-bb-cc-dd-ee-ff style first # Then awk our stuff together sed -e 's/[:-]//g' < $OLDTAB | \ nawk 'BEGIN { PART = 0 ; FIELD=0 ; BOOTPATH="unset" ; BOOTFILE="unset" } /^%%/ { PART = 1 printf ".default:\\\n\t:ht=ether:\\\n\t:hn:\\\n\t:dn=your.domain.name:\\\n\t:ds=your,dns,servers:\\\n\t:sm=255.255.0.0:\\\n\t:hd=%s:\\\n\t:rp=%s:\\\n\t:td=%s:\\\n\t:bf=%s:\\\n\t:to=auto:\n\n", BOOTPATH, BOOTPATH, BOOTPATH, BOOTFILE next } /^$/ { next } /^#/ { next } { if ( PART == 0 && FIELD < 2 ) { if ( FIELD == 0 ) BOOTPATH=$1 if ( FIELD == 1 ) BOOTFILE=$1 FIELD++ } } { if ( PART == 1 ) { HOST=$1 HA=$3 IP=$4 BF=$5 printf "%s:\\\n\t:tc=.default:\\\n\t:ha=0x%s:\\\n\t:ip=%s:\\\n\t:bf=%s:\n", HOST, HA, IP, BF } }' >> $NEWTAB exit 0